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A Two-Stochastic Optimal Scheduling Method for Hydropower Station and Reservoir Based on Approximation of Remaining Period Benefit Function

A technology of benefit function and scheduling method, applied in data processing applications, instruments, calculations, etc., can solve the problems of not considering the uncertainty of runoff forecast, the mismatch of reservoir scheduling period, and the limited forecast period of runoff forecast.

Active Publication Date: 2019-09-10
HOHAI UNIV
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Problems solved by technology

[0010] From the rolling update process of the medium- and long-term power generation plan above, it can be seen that there are two problems in the formulation of the current medium- and long-term power generation plan: ① The optimization scheduling model does not consider the uncertainty of runoff forecast
② The forecast period of runoff forecast is limited, which does not match the reservoir regulation period
[0011] The existing method of using an optimization model to formulate medium and long-term power generation plans does not consider the uncertainty of runoff forecast, and there is a problem that the forecast period of runoff forecast does not match the reservoir dispatching period

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  • A Two-Stochastic Optimal Scheduling Method for Hydropower Station and Reservoir Based on Approximation of Remaining Period Benefit Function
  • A Two-Stochastic Optimal Scheduling Method for Hydropower Station and Reservoir Based on Approximation of Remaining Period Benefit Function
  • A Two-Stochastic Optimal Scheduling Method for Hydropower Station and Reservoir Based on Approximation of Remaining Period Benefit Function

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[0114] The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0115] The present invention introduces a two-stage decision-making idea, and tries to use the runoff forecast information with a limited forecast period and forecast accuracy to establish a two-stage stochastic optimal dispatch model that can guide the rolling update of medium and long-term power generation plans.

[0116] like figure 1 As shown, a two-stage stochastic optimal scheduling method for hydropower station reservoirs based on the approximation of the residual period benefit function mainly includes the following steps:

[0117] (1) Introduce the idea of ​​two-stage decision-making, divide the dispatching period of the hydropower station reservoir into the current stage and the remaining period, and construct a two-stage decision-making model framework.

[0118] The scheduling period of the hydropower sta...

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Abstract

The invention discloses a two-stage stochastic optimal operation method of a hydropower station reservoir based on the residual period benefit function approximation, which comprises the following steps of dividing the hydropower station reservoir operation period into a current stage and a residual period, and constructing a two-stage decision model framework; considering the influence of residual water situation and residual storage capacity on residual benefit, constructing the approximate function of residual benefit; based on stochastic dynamic programming (SDP), proposing a stepwise iterative method to obtain the approximate residual benefit function; according to the actual runoff forecasting level, establishing a two-stage stochastic optimal scheduling model. The method of the invention avoids the dimension disaster of the SDP, takes the artificial neural network as the approximator of residual period benefit function, avoids the artificial assumption of residual period benefitfunction, and can obtain the continuous curved surface of residual period benefit. The two-stage stochastic optimal dispatching model transforms the multi-stage reservoir dispatching decision-makingproblem into a two-stage optimal decision-making problem, which can be directly used to guide the rolling updating of medium and long-term generation plans.

Description

technical field [0001] The invention relates to a reservoir dispatching method, in particular to a two-stage stochastic optimal dispatching method for a hydropower station reservoir based on the approximation of the residual period benefit function. Background technique [0002] The preparation of medium and long-term power generation plans for hydropower stations has always been the focus and difficulty in the field of reservoir optimization and dispatch. When formulating the dispatch plan, not only the runoff change at the moment, but also the long-term runoff change law should be taken into account, both the short-term benefits and the long-term benefits should be taken into account. Considering the fact that the accuracy of mid- and long-term runoff forecasts is not high enough and the forecast period is limited, in order to allow adequate leeway for the formulation of power generation plans, in the power balance of the power system, the commonly used guarantee rate for ...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06Q10/06G06Q50/06
CPCG06Q10/0631G06Q10/0637G06Q50/06Y04S10/50
Inventor 谭乔凤闻昕方国华雷晓辉王旭王超黄显峰高玉琴
Owner HOHAI UNIV
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